llvm-project/mlir/test/Dialect/SPIRV/ops.mlir

1308 lines
39 KiB
MLIR

// RUN: mlir-opt -allow-unregistered-dialect -split-input-file -verify-diagnostics %s | FileCheck %s
//===----------------------------------------------------------------------===//
// spv.AccessChain
//===----------------------------------------------------------------------===//
func @access_chain_struct() -> () {
%0 = spv.constant 1: i32
%1 = spv.Variable : !spv.ptr<!spv.struct<f32, !spv.array<4xf32>>, Function>
// CHECK: spv.AccessChain {{.*}}[{{.*}}, {{.*}}] : !spv.ptr<!spv.struct<f32, !spv.array<4 x f32>>, Function>
%2 = spv.AccessChain %1[%0, %0] : !spv.ptr<!spv.struct<f32, !spv.array<4xf32>>, Function>, i32, i32
return
}
func @access_chain_1D_array(%arg0 : i32) -> () {
%0 = spv.Variable : !spv.ptr<!spv.array<4xf32>, Function>
// CHECK: spv.AccessChain {{.*}}[{{.*}}] : !spv.ptr<!spv.array<4 x f32>, Function>
%1 = spv.AccessChain %0[%arg0] : !spv.ptr<!spv.array<4xf32>, Function>, i32
return
}
func @access_chain_2D_array_1(%arg0 : i32) -> () {
%0 = spv.Variable : !spv.ptr<!spv.array<4x!spv.array<4xf32>>, Function>
// CHECK: spv.AccessChain {{.*}}[{{.*}}, {{.*}}] : !spv.ptr<!spv.array<4 x !spv.array<4 x f32>>, Function>
%1 = spv.AccessChain %0[%arg0, %arg0] : !spv.ptr<!spv.array<4x!spv.array<4xf32>>, Function>, i32, i32
%2 = spv.Load "Function" %1 ["Volatile"] : f32
return
}
func @access_chain_2D_array_2(%arg0 : i32) -> () {
%0 = spv.Variable : !spv.ptr<!spv.array<4x!spv.array<4xf32>>, Function>
// CHECK: spv.AccessChain {{.*}}[{{.*}}] : !spv.ptr<!spv.array<4 x !spv.array<4 x f32>>, Function>
%1 = spv.AccessChain %0[%arg0] : !spv.ptr<!spv.array<4x!spv.array<4xf32>>, Function>, i32
%2 = spv.Load "Function" %1 ["Volatile"] : !spv.array<4xf32>
return
}
func @access_chain_rtarray(%arg0 : i32) -> () {
%0 = spv.Variable : !spv.ptr<!spv.rtarray<f32>, Function>
// CHECK: spv.AccessChain {{.*}}[{{.*}}] : !spv.ptr<!spv.rtarray<f32>, Function>
%1 = spv.AccessChain %0[%arg0] : !spv.ptr<!spv.rtarray<f32>, Function>, i32
%2 = spv.Load "Function" %1 ["Volatile"] : f32
return
}
// -----
func @access_chain_non_composite() -> () {
%0 = spv.constant 1: i32
%1 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{cannot extract from non-composite type 'f32' with index 0}}
%2 = spv.AccessChain %1[%0] : !spv.ptr<f32, Function>, i32
return
}
// -----
func @access_chain_no_indices(%index0 : i32) -> () {
%0 = spv.Variable : !spv.ptr<!spv.array<4x!spv.array<4xf32>>, Function>
// expected-error @+1 {{expected at least one index}}
%1 = spv.AccessChain %0[] : !spv.ptr<!spv.array<4x!spv.array<4xf32>>, Function>, i32
return
}
// -----
func @access_chain_missing_comma(%index0 : i32) -> () {
%0 = spv.Variable : !spv.ptr<!spv.array<4x!spv.array<4xf32>>, Function>
// expected-error @+1 {{expected ','}}
%1 = spv.AccessChain %0[%index0] : !spv.ptr<!spv.array<4x!spv.array<4xf32>>, Function> i32
return
}
// -----
func @access_chain_invalid_indices_types_count(%index0 : i32) -> () {
%0 = spv.Variable : !spv.ptr<!spv.array<4x!spv.array<4xf32>>, Function>
// expected-error @+1 {{'spv.AccessChain' op indices types' count must be equal to indices info count}}
%1 = spv.AccessChain %0[%index0] : !spv.ptr<!spv.array<4x!spv.array<4xf32>>, Function>, i32, i32
return
}
// -----
func @access_chain_missing_indices_type(%index0 : i32) -> () {
%0 = spv.Variable : !spv.ptr<!spv.array<4x!spv.array<4xf32>>, Function>
// expected-error @+1 {{'spv.AccessChain' op indices types' count must be equal to indices info count}}
%1 = spv.AccessChain %0[%index0, %index0] : !spv.ptr<!spv.array<4x!spv.array<4xf32>>, Function>, i32
return
}
// -----
func @access_chain_invalid_type(%index0 : i32) -> () {
%0 = spv.Variable : !spv.ptr<!spv.array<4x!spv.array<4xf32>>, Function>
%1 = spv.Load "Function" %0 ["Volatile"] : !spv.array<4x!spv.array<4xf32>>
// expected-error @+1 {{expected a pointer to composite type, but provided '!spv.array<4 x !spv.array<4 x f32>>'}}
%2 = spv.AccessChain %1[%index0] : !spv.array<4x!spv.array<4xf32>>, i32
return
}
// -----
func @access_chain_invalid_index_1(%index0 : i32) -> () {
%0 = spv.Variable : !spv.ptr<!spv.array<4x!spv.array<4xf32>>, Function>
// expected-error @+1 {{expected SSA operand}}
%1 = spv.AccessChain %0[%index, 4] : !spv.ptr<!spv.array<4x!spv.array<4xf32>>, Function>, i32, i32
return
}
// -----
func @access_chain_invalid_index_2(%index0 : i32) -> () {
%0 = spv.Variable : !spv.ptr<!spv.struct<f32, !spv.array<4xf32>>, Function>
// expected-error @+1 {{index must be an integer spv.constant to access element of spv.struct}}
%1 = spv.AccessChain %0[%index0, %index0] : !spv.ptr<!spv.struct<f32, !spv.array<4xf32>>, Function>, i32, i32
return
}
// -----
func @access_chain_invalid_constant_type_1() -> () {
%0 = std.constant 1: i32
%1 = spv.Variable : !spv.ptr<!spv.struct<f32, !spv.array<4xf32>>, Function>
// expected-error @+1 {{index must be an integer spv.constant to access element of spv.struct, but provided std.constant}}
%2 = spv.AccessChain %1[%0, %0] : !spv.ptr<!spv.struct<f32, !spv.array<4xf32>>, Function>, i32, i32
return
}
// -----
func @access_chain_out_of_bounds() -> () {
%index0 = "spv.constant"() { value = 12: i32} : () -> i32
%0 = spv.Variable : !spv.ptr<!spv.struct<f32, !spv.array<4xf32>>, Function>
// expected-error @+1 {{'spv.AccessChain' op index 12 out of bounds for '!spv.struct<f32, !spv.array<4 x f32>>'}}
%1 = spv.AccessChain %0[%index0, %index0] : !spv.ptr<!spv.struct<f32, !spv.array<4xf32>>, Function>, i32, i32
return
}
// -----
func @access_chain_invalid_accessing_type(%index0 : i32) -> () {
%0 = spv.Variable : !spv.ptr<!spv.array<4x!spv.array<4xf32>>, Function>
// expected-error @+1 {{cannot extract from non-composite type 'f32' with index 0}}
%1 = spv.AccessChain %0[%index, %index0, %index0] : !spv.ptr<!spv.array<4x!spv.array<4xf32>>, Function>, i32, i32, i32
return
// -----
//===----------------------------------------------------------------------===//
// spv.Bitcast
//===----------------------------------------------------------------------===//
func @cast1(%arg0 : f32) {
// CHECK: {{%.*}} = spv.Bitcast {{%.*}} : f32 to i32
%0 = spv.Bitcast %arg0 : f32 to i32
return
}
func @cast2(%arg0 : vector<2xf32>) {
// CHECK: {{%.*}} = spv.Bitcast {{%.*}} : vector<2xf32> to vector<2xi32>
%0 = spv.Bitcast %arg0 : vector<2xf32> to vector<2xi32>
return
}
func @cast3(%arg0 : vector<2xf32>) {
// CHECK: {{%.*}} = spv.Bitcast {{%.*}} : vector<2xf32> to i64
%0 = spv.Bitcast %arg0 : vector<2xf32> to i64
return
}
func @cast4(%arg0 : !spv.ptr<f32, Function>) {
// CHECK: {{%.*}} = spv.Bitcast {{%.*}} : !spv.ptr<f32, Function> to !spv.ptr<i32, Function>
%0 = spv.Bitcast %arg0 : !spv.ptr<f32, Function> to !spv.ptr<i32, Function>
return
}
func @cast5(%arg0 : !spv.ptr<f32, Function>) {
// CHECK: {{%.*}} = spv.Bitcast {{%.*}} : !spv.ptr<f32, Function> to !spv.ptr<vector<2xi32>, Function>
%0 = spv.Bitcast %arg0 : !spv.ptr<f32, Function> to !spv.ptr<vector<2xi32>, Function>
return
}
func @cast6(%arg0 : vector<4xf32>) {
// CHECK: {{%.*}} = spv.Bitcast {{%.*}} : vector<4xf32> to vector<2xi64>
%0 = spv.Bitcast %arg0 : vector<4xf32> to vector<2xi64>
return
}
// -----
func @cast1(%arg0 : f32) {
// expected-error @+1 {{result type must be different from operand type}}
%0 = spv.Bitcast %arg0 : f32 to f32
return
}
// -----
func @cast1(%arg0 : f32) {
// expected-error @+1 {{mismatch in result type bitwidth 64 and operand type bitwidth 32}}
%0 = spv.Bitcast %arg0 : f32 to i64
return
}
// -----
func @cast1(%arg0 : vector<2xf32>) {
// expected-error @+1 {{mismatch in result type bitwidth 96 and operand type bitwidth 64}}
%0 = spv.Bitcast %arg0 : vector<2xf32> to vector<3xf32>
return
}
// -----
func @cast3(%arg0 : !spv.ptr<f32, Function>) {
// expected-error @+1 {{unhandled bit cast conversion from pointer type to non-pointer type}}
%0 = spv.Bitcast %arg0 : !spv.ptr<f32, Function> to i64
return
}
// -----
func @cast3(%arg0 : i64) {
// expected-error @+1 {{unhandled bit cast conversion from non-pointer type to pointer type}}
%0 = spv.Bitcast %arg0 : i64 to !spv.ptr<f32, Function>
return
}
// -----
//===----------------------------------------------------------------------===//
// spv.BitCount
//===----------------------------------------------------------------------===//
func @bitcount(%arg: i32) -> i32 {
// CHECK: spv.BitCount {{%.*}} : i32
%0 = spv.BitCount %arg : i32
spv.ReturnValue %0 : i32
}
// -----
//===----------------------------------------------------------------------===//
// spv.BitFieldInsert
//===----------------------------------------------------------------------===//
func @bit_field_insert_vec(%base: vector<3xi32>, %insert: vector<3xi32>, %offset: i32, %count: i16) -> vector<3xi32> {
// CHECK: {{%.*}} = spv.BitFieldInsert {{%.*}}, {{%.*}}, {{%.*}}, {{%.*}} : vector<3xi32>, i32, i16
%0 = spv.BitFieldInsert %base, %insert, %offset, %count : vector<3xi32>, i32, i16
spv.ReturnValue %0 : vector<3xi32>
}
// -----
func @bit_field_insert_invalid_insert_type(%base: vector<3xi32>, %insert: vector<2xi32>, %offset: i32, %count: i16) -> vector<3xi32> {
// expected-error @+1 {{all of {base, insert, result} have same type}}
%0 = "spv.BitFieldInsert" (%base, %insert, %offset, %count) : (vector<3xi32>, vector<2xi32>, i32, i16) -> vector<3xi32>
spv.ReturnValue %0 : vector<3xi32>
}
// -----
//===----------------------------------------------------------------------===//
// spv.BitFieldSExtract
//===----------------------------------------------------------------------===//
func @bit_field_s_extract_vec(%base: vector<3xi32>, %offset: i8, %count: i8) -> vector<3xi32> {
// CHECK: {{%.*}} = spv.BitFieldSExtract {{%.*}}, {{%.*}}, {{%.*}} : vector<3xi32>, i8, i8
%0 = spv.BitFieldSExtract %base, %offset, %count : vector<3xi32>, i8, i8
spv.ReturnValue %0 : vector<3xi32>
}
//===----------------------------------------------------------------------===//
// spv.BitFieldUExtract
//===----------------------------------------------------------------------===//
func @bit_field_u_extract_vec(%base: vector<3xi32>, %offset: i8, %count: i8) -> vector<3xi32> {
// CHECK: {{%.*}} = spv.BitFieldUExtract {{%.*}}, {{%.*}}, {{%.*}} : vector<3xi32>, i8, i8
%0 = spv.BitFieldUExtract %base, %offset, %count : vector<3xi32>, i8, i8
spv.ReturnValue %0 : vector<3xi32>
}
// -----
func @bit_field_u_extract_invalid_result_type(%base: vector<3xi32>, %offset: i32, %count: i16) -> vector<4xi32> {
// expected-error @+1 {{failed to verify that all of {base, result} have same type}}
%0 = "spv.BitFieldUExtract" (%base, %offset, %count) : (vector<3xi32>, i32, i16) -> vector<4xi32>
spv.ReturnValue %0 : vector<4xi32>
}
// -----
//===----------------------------------------------------------------------===//
// spv.BitReverse
//===----------------------------------------------------------------------===//
func @bitreverse(%arg: i32) -> i32 {
// CHECK: spv.BitReverse {{%.*}} : i32
%0 = spv.BitReverse %arg : i32
spv.ReturnValue %0 : i32
}
// -----
//===----------------------------------------------------------------------===//
// spv.ControlBarrier
//===----------------------------------------------------------------------===//
func @control_barrier_0() -> () {
// CHECK: spv.ControlBarrier "Workgroup", "Device", "Acquire|UniformMemory"
spv.ControlBarrier "Workgroup", "Device", "Acquire|UniformMemory"
return
}
// -----
func @control_barrier_1() -> () {
// expected-error @+1 {{invalid execution_scope attribute specification: "Something"}}
spv.ControlBarrier "Something", "Device", "Acquire|UniformMemory"
return
}
// -----
//===----------------------------------------------------------------------===//
// spv.ConvertFToS
//===----------------------------------------------------------------------===//
func @convert_f_to_s_scalar(%arg0 : f32) -> i32 {
// CHECK: {{%.*}} = spv.ConvertFToS {{%.*}} : f32 to i32
%0 = spv.ConvertFToS %arg0 : f32 to i32
spv.ReturnValue %0 : i32
}
// -----
//===----------------------------------------------------------------------===//
// spv.ConvertFToU
//===----------------------------------------------------------------------===//
func @convert_f_to_u_scalar(%arg0 : f32) -> i32 {
// CHECK: {{%.*}} = spv.ConvertFToU {{%.*}} : f32 to i32
%0 = spv.ConvertFToU %arg0 : f32 to i32
spv.ReturnValue %0 : i32
}
// -----
func @convert_f_to_u_vector(%arg0 : vector<3xf32>) -> vector<3xi32> {
// CHECK: {{%.*}} = spv.ConvertFToU {{%.*}} : vector<3xf32> to vector<3xi32>
%0 = spv.ConvertFToU %arg0 : vector<3xf32> to vector<3xi32>
spv.ReturnValue %0 : vector<3xi32>
}
// -----
func @convert_f_to_u_coopmatrix(%arg0 : !spv.coopmatrix<8x16xf32, Subgroup>) {
// CHECK: {{%.*}} = spv.ConvertFToU {{%.*}} : !spv.coopmatrix<8x16xf32, Subgroup> to !spv.coopmatrix<8x16xi32, Subgroup>
%0 = spv.ConvertFToU %arg0 : !spv.coopmatrix<8x16xf32, Subgroup> to !spv.coopmatrix<8x16xi32, Subgroup>
spv.Return
}
// -----
func @convert_f_to_u_scalar_invalid(%arg0 : f16) -> i32 {
// expected-error @+1 {{expected the same bit widths for operand type and result type, but provided 'f16' and 'i32'}}
%0 = spv.ConvertFToU %arg0 : f16 to i32
spv.ReturnValue %0 : i32
}
// -----
//===----------------------------------------------------------------------===//
// spv.ConvertSToF
//===----------------------------------------------------------------------===//
func @convert_s_to_f_scalar(%arg0 : i32) -> f32 {
// CHECK: {{%.*}} = spv.ConvertSToF {{%.*}} : i32 to f32
%0 = spv.ConvertSToF %arg0 : i32 to f32
spv.ReturnValue %0 : f32
}
// -----
//===----------------------------------------------------------------------===//
// spv.ConvertUToF
//===----------------------------------------------------------------------===//
func @convert_u_to_f_scalar(%arg0 : i32) -> f32 {
// CHECK: {{%.*}} = spv.ConvertUToF {{%.*}} : i32 to f32
%0 = spv.ConvertUToF %arg0 : i32 to f32
spv.ReturnValue %0 : f32
}
// -----
//===----------------------------------------------------------------------===//
// spv.FConvert
//===----------------------------------------------------------------------===//
func @f_convert_scalar(%arg0 : f32) -> f64 {
// CHECK: {{%.*}} = spv.FConvert {{%.*}} : f32 to f64
%0 = spv.FConvert %arg0 : f32 to f64
spv.ReturnValue %0 : f64
}
// -----
func @f_convert_vector(%arg0 : vector<3xf32>) -> vector<3xf64> {
// CHECK: {{%.*}} = spv.FConvert {{%.*}} : vector<3xf32> to vector<3xf64>
%0 = spv.FConvert %arg0 : vector<3xf32> to vector<3xf64>
spv.ReturnValue %0 : vector<3xf64>
}
// -----
func @f_convert_coop_matrix(%arg0 : !spv.coopmatrix<8x16xf32, Subgroup>) {
// CHECK: {{%.*}} = spv.FConvert {{%.*}} : !spv.coopmatrix<8x16xf32, Subgroup> to !spv.coopmatrix<8x16xf64, Subgroup>
%0 = spv.FConvert %arg0 : !spv.coopmatrix<8x16xf32, Subgroup> to !spv.coopmatrix<8x16xf64, Subgroup>
spv.Return
}
// -----
func @f_convert_vector(%arg0 : f32) -> f32 {
// expected-error @+1 {{expected the different bit widths for operand type and result type, but provided 'f32' and 'f32'}}
%0 = spv.FConvert %arg0 : f32 to f32
spv.ReturnValue %0 : f32
}
// -----
//===----------------------------------------------------------------------===//
// spv.SConvert
//===----------------------------------------------------------------------===//
func @s_convert_scalar(%arg0 : i32) -> i64 {
// CHECK: {{%.*}} = spv.SConvert {{%.*}} : i32 to i64
%0 = spv.SConvert %arg0 : i32 to i64
spv.ReturnValue %0 : i64
}
// -----
//===----------------------------------------------------------------------===//
// spv.UConvert
//===----------------------------------------------------------------------===//
func @u_convert_scalar(%arg0 : i32) -> i64 {
// CHECK: {{%.*}} = spv.UConvert {{%.*}} : i32 to i64
%0 = spv.UConvert %arg0 : i32 to i64
spv.ReturnValue %0 : i64
}
// -----
//===----------------------------------------------------------------------===//
// spv.ExecutionMode
//===----------------------------------------------------------------------===//
spv.module Logical GLSL450 {
spv.func @do_nothing() -> () "None" {
spv.Return
}
spv.EntryPoint "GLCompute" @do_nothing
// CHECK: spv.ExecutionMode {{@.*}} "ContractionOff"
spv.ExecutionMode @do_nothing "ContractionOff"
}
spv.module Logical GLSL450 {
spv.func @do_nothing() -> () "None" {
spv.Return
}
spv.EntryPoint "GLCompute" @do_nothing
// CHECK: spv.ExecutionMode {{@.*}} "LocalSizeHint", 3, 4, 5
spv.ExecutionMode @do_nothing "LocalSizeHint", 3, 4, 5
}
// -----
spv.module Logical GLSL450 {
spv.func @do_nothing() -> () "None" {
spv.Return
}
spv.EntryPoint "GLCompute" @do_nothing
// expected-error @+1 {{custom op 'spv.ExecutionMode' invalid execution_mode attribute specification: "GLCompute"}}
spv.ExecutionMode @do_nothing "GLCompute", 3, 4, 5
}
// -----
//===----------------------------------------------------------------------===//
// spv.LoadOp
//===----------------------------------------------------------------------===//
// CHECK-LABEL: @simple_load
func @simple_load() -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// CHECK: spv.Load "Function" %{{.*}} : f32
%1 = spv.Load "Function" %0 : f32
return
}
// CHECK-LABEL: @load_none_access
func @load_none_access() -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// CHECK: spv.Load "Function" %{{.*}} ["None"] : f32
%1 = spv.Load "Function" %0 ["None"] : f32
return
}
// CHECK-LABEL: @volatile_load
func @volatile_load() -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// CHECK: spv.Load "Function" %{{.*}} ["Volatile"] : f32
%1 = spv.Load "Function" %0 ["Volatile"] : f32
return
}
// CHECK-LABEL: @aligned_load
func @aligned_load() -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// CHECK: spv.Load "Function" %{{.*}} ["Aligned", 4] : f32
%1 = spv.Load "Function" %0 ["Aligned", 4] : f32
return
}
// CHECK-LABEL: @volatile_aligned_load
func @volatile_aligned_load() -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// CHECK: spv.Load "Function" %{{.*}} ["Volatile|Aligned", 4] : f32
%1 = spv.Load "Function" %0 ["Volatile|Aligned", 4] : f32
return
}
// -----
// CHECK-LABEL: load_none_access
func @load_none_access() -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// CHECK: spv.Load
// CHECK-SAME: ["None"]
%1 = "spv.Load"(%0) {memory_access = 0 : i32} : (!spv.ptr<f32, Function>) -> (f32)
return
}
// CHECK-LABEL: volatile_load
func @volatile_load() -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// CHECK: spv.Load
// CHECK-SAME: ["Volatile"]
%1 = "spv.Load"(%0) {memory_access = 1 : i32} : (!spv.ptr<f32, Function>) -> (f32)
return
}
// CHECK-LABEL: aligned_load
func @aligned_load() -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// CHECK: spv.Load
// CHECK-SAME: ["Aligned", 4]
%1 = "spv.Load"(%0) {memory_access = 2 : i32, alignment = 4 : i32} : (!spv.ptr<f32, Function>) -> (f32)
return
}
// CHECK-LABEL: volatile_aligned_load
func @volatile_aligned_load() -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// CHECK: spv.Load
// CHECK-SAME: ["Volatile|Aligned", 4]
%1 = "spv.Load"(%0) {memory_access = 3 : i32, alignment = 4 : i32} : (!spv.ptr<f32, Function>) -> (f32)
return
}
// -----
func @simple_load_missing_storageclass() -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{expected non-function type}}
%1 = spv.Load %0 : f32
return
}
// -----
func @simple_load_missing_operand() -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{expected SSA operand}}
%1 = spv.Load "Function" : f32
return
}
// -----
func @simple_load_missing_rettype() -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+2 {{expected ':'}}
%1 = spv.Load "Function" %0
return
}
// -----
func @volatile_load_missing_lbrace() -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{expected ':'}}
%1 = spv.Load "Function" %0 "Volatile"] : f32
return
}
// -----
func @volatile_load_missing_rbrace() -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{expected ']'}}
%1 = spv.Load "Function" %0 ["Volatile"} : f32
return
}
// -----
func @aligned_load_missing_alignment() -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{expected ','}}
%1 = spv.Load "Function" %0 ["Aligned"] : f32
return
}
// -----
func @aligned_load_missing_comma() -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{expected ','}}
%1 = spv.Load "Function" %0 ["Aligned" 4] : f32
return
}
// -----
func @load_incorrect_attributes() -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{expected ']'}}
%1 = spv.Load "Function" %0 ["Volatile", 4] : f32
return
}
// -----
func @load_unknown_memory_access() -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{custom op 'spv.Load' invalid memory_access attribute specification: "Something"}}
%1 = spv.Load "Function" %0 ["Something"] : f32
return
}
// -----
func @load_unknown_memory_access() -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{custom op 'spv.Load' invalid memory_access attribute specification: "Volatile|Something"}}
%1 = spv.Load "Function" %0 ["Volatile|Something"] : f32
return
}
// -----
func @load_unknown_memory_access() -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{failed to satisfy constraint: valid SPIR-V MemoryAccess}}
%1 = "spv.Load"(%0) {memory_access = 0x80000000 : i32} : (!spv.ptr<f32, Function>) -> (f32)
return
}
// -----
func @aligned_load_incorrect_attributes() -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{expected ']'}}
%1 = spv.Load "Function" %0 ["Aligned", 4, 23] : f32
return
}
// -----
spv.module Logical GLSL450 {
spv.globalVariable @var0 : !spv.ptr<f32, Input>
// CHECK_LABEL: @simple_load
spv.func @simple_load() -> () "None" {
// CHECK: spv.Load "Input" {{%.*}} : f32
%0 = spv._address_of @var0 : !spv.ptr<f32, Input>
%1 = spv.Load "Input" %0 : f32
spv.Return
}
}
// -----
//===----------------------------------------------------------------------===//
// spv.LogicalAnd
//===----------------------------------------------------------------------===//
func @logicalBinary(%arg0 : i1, %arg1 : i1, %arg2 : i1)
{
// CHECK: [[TMP:%.*]] = spv.LogicalAnd {{%.*}}, {{%.*}} : i1
%0 = spv.LogicalAnd %arg0, %arg1 : i1
// CHECK: {{%.*}} = spv.LogicalAnd [[TMP]], {{%.*}} : i1
%1 = spv.LogicalAnd %0, %arg2 : i1
return
}
func @logicalBinary2(%arg0 : vector<4xi1>, %arg1 : vector<4xi1>)
{
// CHECK: {{%.*}} = spv.LogicalAnd {{%.*}}, {{%.*}} : vector<4xi1>
%0 = spv.LogicalAnd %arg0, %arg1 : vector<4xi1>
return
}
// -----
func @logicalBinary(%arg0 : i1, %arg1 : i1)
{
// expected-error @+2 {{expected ':'}}
%0 = spv.LogicalAnd %arg0, %arg1
return
}
// -----
func @logicalBinary(%arg0 : i1, %arg1 : i1)
{
// expected-error @+2 {{expected non-function type}}
%0 = spv.LogicalAnd %arg0, %arg1 :
return
}
// -----
func @logicalBinary(%arg0 : i1, %arg1 : i1)
{
// expected-error @+1 {{custom op 'spv.LogicalAnd' expected 2 operands}}
%0 = spv.LogicalAnd %arg0 : i1
return
}
// -----
//===----------------------------------------------------------------------===//
// spv.LogicalNot
//===----------------------------------------------------------------------===//
func @logicalUnary(%arg0 : i1, %arg1 : i1)
{
// CHECK: [[TMP:%.*]] = spv.LogicalNot {{%.*}} : i1
%0 = spv.LogicalNot %arg0 : i1
// CHECK: {{%.*}} = spv.LogicalNot [[TMP]] : i1
%1 = spv.LogicalNot %0 : i1
return
}
func @logicalUnary2(%arg0 : vector<4xi1>)
{
// CHECK: {{%.*}} = spv.LogicalNot {{%.*}} : vector<4xi1>
%0 = spv.LogicalNot %arg0 : vector<4xi1>
return
}
// -----
func @logicalUnary(%arg0 : i1)
{
// expected-error @+2 {{expected ':'}}
%0 = spv.LogicalNot %arg0
return
}
// -----
func @logicalUnary(%arg0 : i1)
{
// expected-error @+2 {{expected non-function type}}
%0 = spv.LogicalNot %arg0 :
return
}
// -----
func @logicalUnary(%arg0 : i1)
{
// expected-error @+1 {{expected SSA operand}}
%0 = spv.LogicalNot : i1
return
}
// -----
func @logicalUnary(%arg0 : i32)
{
// expected-error @+1 {{operand #0 must be bool or vector of bool values of length 2/3/4, but got 'i32'}}
%0 = spv.LogicalNot %arg0 : i32
return
}
// -----
//===----------------------------------------------------------------------===//
// spv.MemoryBarrier
//===----------------------------------------------------------------------===//
func @memory_barrier_0() -> () {
// CHECK: spv.MemoryBarrier "Device", "Acquire|UniformMemory"
spv.MemoryBarrier "Device", "Acquire|UniformMemory"
return
}
// -----
func @memory_barrier_1() -> () {
// CHECK: spv.MemoryBarrier "Workgroup", "Acquire"
spv.MemoryBarrier "Workgroup", "Acquire"
return
}
// -----
func @memory_barrier_2() -> () {
// expected-error @+1 {{expected at most one of these four memory constraints to be set: `Acquire`, `Release`,`AcquireRelease` or `SequentiallyConsistent`}}
spv.MemoryBarrier "Device", "Acquire|Release"
return
}
// -----
//===----------------------------------------------------------------------===//
// spv.Not
//===----------------------------------------------------------------------===//
func @not(%arg: i32) -> i32 {
// CHECK: spv.Not {{%.*}} : i32
%0 = spv.Not %arg : i32
spv.ReturnValue %0 : i32
}
// -----
//===----------------------------------------------------------------------===//
// spv.SelectOp
//===----------------------------------------------------------------------===//
func @select_op_bool(%arg0: i1) -> () {
%0 = spv.constant true
%1 = spv.constant false
// CHECK : spv.Select {{%.*}}, {{%.*}}, {{%.*}} : i1, i1
%2 = spv.Select %arg0, %0, %1 : i1, i1
return
}
func @select_op_int(%arg0: i1) -> () {
%0 = spv.constant 2 : i32
%1 = spv.constant 3 : i32
// CHECK : spv.Select {{%.*}}, {{%.*}}, {{%.*}} : i1, i32
%2 = spv.Select %arg0, %0, %1 : i1, i32
return
}
func @select_op_float(%arg0: i1) -> () {
%0 = spv.constant 2.0 : f32
%1 = spv.constant 3.0 : f32
// CHECK : spv.Select {{%.*}}, {{%.*}}, {{%.*}} : i1, f32
%2 = spv.Select %arg0, %0, %1 : i1, f32
return
}
func @select_op_ptr(%arg0: i1) -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
%1 = spv.Variable : !spv.ptr<f32, Function>
// CHECK : spv.Select {{%.*}}, {{%.*}}, {{%.*}} : i1, !spv.ptr<f32, Function>
%2 = spv.Select %arg0, %0, %1 : i1, !spv.ptr<f32, Function>
return
}
func @select_op_vec(%arg0: i1) -> () {
%0 = spv.constant dense<[2.0, 3.0, 4.0]> : vector<3xf32>
%1 = spv.constant dense<[5.0, 6.0, 7.0]> : vector<3xf32>
// CHECK : spv.Select {{%.*}}, {{%.*}}, {{%.*}} : i1, vector<3xf32>
%2 = spv.Select %arg0, %0, %1 : i1, vector<3xf32>
return
}
func @select_op_vec_condn_vec(%arg0: vector<3xi1>) -> () {
%0 = spv.constant dense<[2.0, 3.0, 4.0]> : vector<3xf32>
%1 = spv.constant dense<[5.0, 6.0, 7.0]> : vector<3xf32>
// CHECK : spv.Select {{%.*}}, {{%.*}}, {{%.*}} : vector<3xi1>, vector<3xf32>
%2 = spv.Select %arg0, %0, %1 : vector<3xi1>, vector<3xf32>
return
}
// -----
func @select_op(%arg0: i1) -> () {
%0 = spv.constant 2 : i32
%1 = spv.constant 3 : i32
// expected-error @+2 {{expected ','}}
%2 = spv.Select %arg0, %0, %1 : i1
return
}
// -----
func @select_op(%arg1: vector<3xi1>) -> () {
%0 = spv.constant 2 : i32
%1 = spv.constant 3 : i32
// expected-error @+1 {{result expected to be of vector type when condition is of vector type}}
%2 = spv.Select %arg1, %0, %1 : vector<3xi1>, i32
return
}
// -----
func @select_op(%arg1: vector<4xi1>) -> () {
%0 = spv.constant dense<[2, 3, 4]> : vector<3xi32>
%1 = spv.constant dense<[5, 6, 7]> : vector<3xi32>
// expected-error @+1 {{result should have the same number of elements as the condition when condition is of vector type}}
%2 = spv.Select %arg1, %0, %1 : vector<4xi1>, vector<3xi32>
return
}
// -----
func @select_op(%arg1: vector<4xi1>) -> () {
%0 = spv.constant dense<[2.0, 3.0, 4.0]> : vector<3xf32>
%1 = spv.constant dense<[5, 6, 7]> : vector<3xi32>
// expected-error @+1 {{all of {true_value, false_value, result} have same type}}
%2 = "spv.Select"(%arg1, %0, %1) : (vector<4xi1>, vector<3xf32>, vector<3xi32>) -> vector<3xi32>
return
}
// -----
func @select_op(%arg1: vector<4xi1>) -> () {
%0 = spv.constant dense<[2.0, 3.0, 4.0]> : vector<3xf32>
%1 = spv.constant dense<[5, 6, 7]> : vector<3xi32>
// expected-error @+1 {{all of {true_value, false_value, result} have same type}}
%2 = "spv.Select"(%arg1, %1, %0) : (vector<4xi1>, vector<3xi32>, vector<3xf32>) -> vector<3xi32>
return
}
// -----
//===----------------------------------------------------------------------===//
// spv.ShiftLeftLogical
//===----------------------------------------------------------------------===//
func @shift_left_logical(%arg0: i32, %arg1 : i16) -> i32 {
// CHECK: {{%.*}} = spv.ShiftLeftLogical {{%.*}}, {{%.*}} : i32, i16
%0 = spv.ShiftLeftLogical %arg0, %arg1: i32, i16
spv.ReturnValue %0 : i32
}
// -----
func @shift_left_logical_invalid_result_type(%arg0: i32, %arg1 : i16) -> i16 {
// expected-error @+1 {{expected the same type for the first operand and result, but provided 'i32' and 'i16'}}
%0 = "spv.ShiftLeftLogical" (%arg0, %arg1) : (i32, i16) -> (i16)
spv.ReturnValue %0 : i16
}
// -----
//===----------------------------------------------------------------------===//
// spv.ShiftRightArithmetic
//===----------------------------------------------------------------------===//
func @shift_right_arithmetic(%arg0: vector<4xi32>, %arg1 : vector<4xi8>) -> vector<4xi32> {
// CHECK: {{%.*}} = spv.ShiftRightArithmetic {{%.*}}, {{%.*}} : vector<4xi32>, vector<4xi8>
%0 = spv.ShiftRightArithmetic %arg0, %arg1: vector<4xi32>, vector<4xi8>
spv.ReturnValue %0 : vector<4xi32>
}
// -----
//===----------------------------------------------------------------------===//
// spv.ShiftRightLogical
//===----------------------------------------------------------------------===//
func @shift_right_logical(%arg0: vector<2xi32>, %arg1 : vector<2xi8>) -> vector<2xi32> {
// CHECK: {{%.*}} = spv.ShiftRightLogical {{%.*}}, {{%.*}} : vector<2xi32>, vector<2xi8>
%0 = spv.ShiftRightLogical %arg0, %arg1: vector<2xi32>, vector<2xi8>
spv.ReturnValue %0 : vector<2xi32>
}
// -----
//===----------------------------------------------------------------------===//
// spv.StoreOp
//===----------------------------------------------------------------------===//
func @simple_store(%arg0 : f32) -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// CHECK: spv.Store "Function" %0, %arg0 : f32
spv.Store "Function" %0, %arg0 : f32
return
}
// CHECK_LABEL: @volatile_store
func @volatile_store(%arg0 : f32) -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// CHECK: spv.Store "Function" %0, %arg0 ["Volatile"] : f32
spv.Store "Function" %0, %arg0 ["Volatile"] : f32
return
}
// CHECK_LABEL: @aligned_store
func @aligned_store(%arg0 : f32) -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// CHECK: spv.Store "Function" %0, %arg0 ["Aligned", 4] : f32
spv.Store "Function" %0, %arg0 ["Aligned", 4] : f32
return
}
// -----
func @simple_store_missing_ptr_type(%arg0 : f32) -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{expected non-function type}}
spv.Store %0, %arg0 : f32
return
}
// -----
func @simple_store_missing_operand(%arg0 : f32) -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{custom op 'spv.Store' invalid operand}} : f32
spv.Store "Function" , %arg0 : f32
return
}
// -----
func @simple_store_missing_operand(%arg0 : f32) -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{custom op 'spv.Store' expected 2 operands}} : f32
spv.Store "Function" %0 : f32
return
}
// -----
func @volatile_store_missing_lbrace(%arg0 : f32) -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{expected ':'}}
spv.Store "Function" %0, %arg0 "Volatile"] : f32
return
}
// -----
func @volatile_store_missing_rbrace(%arg0 : f32) -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{expected ']'}}
spv.Store "Function" %0, %arg0 ["Volatile"} : f32
return
}
// -----
func @aligned_store_missing_alignment(%arg0 : f32) -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{expected ','}}
spv.Store "Function" %0, %arg0 ["Aligned"] : f32
return
}
// -----
func @aligned_store_missing_comma(%arg0 : f32) -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{expected ','}}
spv.Store "Function" %0, %arg0 ["Aligned" 4] : f32
return
}
// -----
func @load_incorrect_attributes(%arg0 : f32) -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{expected ']'}}
spv.Store "Function" %0, %arg0 ["Volatile", 4] : f32
return
}
// -----
func @aligned_store_incorrect_attributes(%arg0 : f32) -> () {
%0 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{expected ']'}}
spv.Store "Function" %0, %arg0 ["Aligned", 4, 23] : f32
return
}
// -----
spv.module Logical GLSL450 {
spv.globalVariable @var0 : !spv.ptr<f32, Input>
spv.func @simple_store(%arg0 : f32) -> () "None" {
%0 = spv._address_of @var0 : !spv.ptr<f32, Input>
// CHECK: spv.Store "Input" {{%.*}}, {{%.*}} : f32
spv.Store "Input" %0, %arg0 : f32
spv.Return
}
}
// -----
//===----------------------------------------------------------------------===//
// spv.SubgroupBallotKHR
//===----------------------------------------------------------------------===//
func @subgroup_ballot(%predicate: i1) -> vector<4xi32> {
%0 = spv.SubgroupBallotKHR %predicate: vector<4xi32>
return %0: vector<4xi32>
}
// -----
//===----------------------------------------------------------------------===//
// spv.undef
//===----------------------------------------------------------------------===//
func @undef() -> () {
%0 = spv.undef : f32
%1 = spv.undef : vector<4xf32>
spv.Return
}
// -----
func @undef() -> () {
// expected-error @+2{{expected non-function type}}
%0 = spv.undef :
spv.Return
}
// -----
func @undef() -> () {
// expected-error @+2{{expected ':'}}
%0 = spv.undef
spv.Return
}
// -----
//===----------------------------------------------------------------------===//
// spv.Variable
//===----------------------------------------------------------------------===//
func @variable(%arg0: f32) -> () {
// CHECK: spv.Variable : !spv.ptr<f32, Function>
%0 = spv.Variable : !spv.ptr<f32, Function>
return
}
// -----
func @variable_init_normal_constant() -> () {
%0 = spv.constant 4.0 : f32
// CHECK: spv.Variable init(%0) : !spv.ptr<f32, Function>
%1 = spv.Variable init(%0) : !spv.ptr<f32, Function>
return
}
// -----
spv.module Logical GLSL450 {
spv.globalVariable @global : !spv.ptr<f32, Workgroup>
spv.func @variable_init_global_variable() -> () "None" {
%0 = spv._address_of @global : !spv.ptr<f32, Workgroup>
// CHECK: spv.Variable init({{.*}}) : !spv.ptr<!spv.ptr<f32, Workgroup>, Function>
%1 = spv.Variable init(%0) : !spv.ptr<!spv.ptr<f32, Workgroup>, Function>
spv.Return
}
}
// -----
spv.module Logical GLSL450 {
spv.specConstant @sc = 42 : i32
// CHECK-LABEL: @variable_init_spec_constant
spv.func @variable_init_spec_constant() -> () "None" {
%0 = spv._reference_of @sc : i32
// CHECK: spv.Variable init(%0) : !spv.ptr<i32, Function>
%1 = spv.Variable init(%0) : !spv.ptr<i32, Function>
spv.Return
}
}
// -----
func @variable_bind() -> () {
// expected-error @+1 {{cannot have 'descriptor_set' attribute (only allowed in spv.globalVariable)}}
%0 = spv.Variable bind(1, 2) : !spv.ptr<f32, Function>
return
}
// -----
func @variable_init_bind() -> () {
%0 = spv.constant 4.0 : f32
// expected-error @+1 {{cannot have 'binding' attribute (only allowed in spv.globalVariable)}}
%1 = spv.Variable init(%0) {binding = 5 : i32} : !spv.ptr<f32, Function>
return
}
// -----
func @variable_builtin() -> () {
// expected-error @+1 {{cannot have 'built_in' attribute (only allowed in spv.globalVariable)}}
%1 = spv.Variable built_in("GlobalInvocationID") : !spv.ptr<vector<3xi32>, Function>
return
}
// -----
func @expect_ptr_result_type(%arg0: f32) -> () {
// expected-error @+1 {{expected spv.ptr type}}
%0 = spv.Variable : f32
return
}
// -----
func @variable_init(%arg0: f32) -> () {
// expected-error @+1 {{op initializer must be the result of a constant or spv.globalVariable op}}
%0 = spv.Variable init(%arg0) : !spv.ptr<f32, Function>
return
}
// -----
func @cannot_be_generic_storage_class(%arg0: f32) -> () {
// expected-error @+1 {{op can only be used to model function-level variables. Use spv.globalVariable for module-level variables}}
%0 = spv.Variable : !spv.ptr<f32, Generic>
return
}
// -----
func @copy_memory_incompatible_ptrs() {
%0 = spv.Variable : !spv.ptr<f32, Function>
%1 = spv.Variable : !spv.ptr<i32, Function>
// expected-error @+1 {{both operands must be pointers to the same type}}
"spv.CopyMemory"(%0, %1) {} : (!spv.ptr<f32, Function>, !spv.ptr<i32, Function>) -> ()
spv.Return
}
// -----
func @copy_memory_invalid_maa() {
%0 = spv.Variable : !spv.ptr<f32, Function>
%1 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{missing alignment value}}
"spv.CopyMemory"(%0, %1) {memory_access=0x0002 : i32} : (!spv.ptr<f32, Function>, !spv.ptr<f32, Function>) -> ()
spv.Return
}
// -----
func @copy_memory_invalid_source_maa() {
%0 = spv.Variable : !spv.ptr<f32, Function>
%1 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{invalid alignment specification with non-aligned memory access specification}}
"spv.CopyMemory"(%0, %1) {source_memory_access=0x0001 : i32, memory_access=0x0002 : i32, source_alignment=8 : i32, alignment=4 : i32} : (!spv.ptr<f32, Function>, !spv.ptr<f32, Function>) -> ()
spv.Return
}
// -----
func @copy_memory_invalid_source_maa2() {
%0 = spv.Variable : !spv.ptr<f32, Function>
%1 = spv.Variable : !spv.ptr<f32, Function>
// expected-error @+1 {{missing alignment value}}
"spv.CopyMemory"(%0, %1) {source_memory_access=0x0002 : i32, memory_access=0x0002 : i32, alignment=4 : i32} : (!spv.ptr<f32, Function>, !spv.ptr<f32, Function>) -> ()
spv.Return
}
// -----
func @copy_memory_print_maa() {
%0 = spv.Variable : !spv.ptr<f32, Function>
%1 = spv.Variable : !spv.ptr<f32, Function>
// CHECK: spv.CopyMemory "Function" %{{.*}}, "Function" %{{.*}} ["Volatile"] : f32
"spv.CopyMemory"(%0, %1) {memory_access=0x0001 : i32} : (!spv.ptr<f32, Function>, !spv.ptr<f32, Function>) -> ()
// CHECK: spv.CopyMemory "Function" %{{.*}}, "Function" %{{.*}} ["Aligned", 4] : f32
"spv.CopyMemory"(%0, %1) {memory_access=0x0002 : i32, alignment=4 : i32} : (!spv.ptr<f32, Function>, !spv.ptr<f32, Function>) -> ()
// CHECK: spv.CopyMemory "Function" %{{.*}}, "Function" %{{.*}} ["Aligned", 4], ["Volatile"] : f32
"spv.CopyMemory"(%0, %1) {source_memory_access=0x0001 : i32, memory_access=0x0002 : i32, alignment=4 : i32} : (!spv.ptr<f32, Function>, !spv.ptr<f32, Function>) -> ()
// CHECK: spv.CopyMemory "Function" %{{.*}}, "Function" %{{.*}} ["Aligned", 4], ["Aligned", 8] : f32
"spv.CopyMemory"(%0, %1) {source_memory_access=0x0002 : i32, memory_access=0x0002 : i32, source_alignment=8 : i32, alignment=4 : i32} : (!spv.ptr<f32, Function>, !spv.ptr<f32, Function>) -> ()
spv.Return
}